期刊: NATURE CLIMATE CHANGE, 2022; 12 (9)
The Atlantic Nino/Nina is an important mode of tropical climate variability, but how it changes with global warming is not clear. Here the authors use......
期刊: NATURE CLIMATE CHANGE, 2022; 12 (4)
Despite overall warming, many regions in the Northern Hemisphere have been cooling in autumn. This cooling resulted in an increasing release of net CO......
期刊: NATURE CLIMATE CHANGE, 2022; 12 (9)
Interannual variability of the Atlantic intertropical convergence zone (ITCZ) affects hydrological cycles, extreme weather events, ecosystems, agricul......
期刊: NATURE CLIMATE CHANGE, 2022; 12 (11)
The authors establish machine learning models to identify multifactor tipping points of global marine phytoplankton. They show that temperature and ca......
期刊: NATURE CLIMATE CHANGE, 2022; 12 (10)
Western boundary currents are narrow, fast-moving ocean flows that are experiencing rapid warming under climate change. Using satellite observations a......
期刊: NATURE CLIMATE CHANGE, 2022; 12 (4)
Determining the emergent climate change signals in the tropical Pacific-mean state and El Nino/Southern Oscillation (ENSO)-is crucial for climate acti......
期刊: NATURE CLIMATE CHANGE, 2022; 12 (1)
Climate warming is changing the aboveground phenology of plants around the world. However, the effects of warming on the belowground phenology of plan......
期刊: NATURE CLIMATE CHANGE, 2022; 12 (3)
Sea surface temperature (SST) variability of El Nino-Southern Oscillation (ENSO) underpins its global impact, and its future change is a long-standing......
期刊: NATURE CLIMATE CHANGE, 2022; 12 (9)
Credibility is the cornerstone of international climate pledges; meanwhile, ambition is essential to reach the temperature targets. Research shows the......
期刊: NATURE CLIMATE CHANGE, 2022; 12 (6)
Interactions between soil quality and climate change may influence the capacity of croplands to produce sufficient food. Here, we address this issue b......
